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The long-lasting protection of reactive low-odor amine catalyst ZR-70 in marine anti-corrosion coatings

admin 3月 7th, 2025 News

The long-lasting protection of reactive low-odor amine catalyst ZR-70 in marine corrosion coatings

Introduction

Ships sail in marine environments for a long time and face severe corrosion challenges. Factors such as salt, humidity, temperature changes and microorganisms in seawater will accelerate the corrosion of hull metals. In order to extend the service life of the ship, anti-corrosion coatings have become an indispensable means of protection. In recent years, the application of reactive low-odor amine catalyst ZR-70 in marine anti-corrosion coatings has gradually attracted attention. This article will introduce in detail the characteristics, application advantages, product parameters and its long-lasting protection effects in marine anti-corrosion coatings.

1. Basic characteristics of ZR-70

1.1 Chemical structure

ZR-70 is a reactive low-odor amine catalyst. Its chemical structure contains multiple reactive amine groups, which can react chemically with the resin during the coating curing process to form a stable crosslinking network. This structure not only improves the mechanical properties of the coating, but also enhances its corrosion resistance.

1.2 Low odor characteristics

ZR-70 has low odor properties during production and application, thanks to the absence of volatile organic compounds (VOCs) in its molecular structure. Low odor characteristics not only improve the working environment, but also reduce the health hazards to operators.

1.3 Reactive activity

ZR-70 has high reactivity and can react quickly with resin at lower temperatures, shortening the curing time of the coating. This characteristic is particularly important in the process of ship coating, which usually needs to be completed within a limited time to improve production efficiency.

2. Advantages of ZR-70 in ship anti-corrosion coatings

2.1 Improve the adhesion of the paint

ZR-70 can form stable chemical bonds with resins, enhancing the adhesion between the coating and the metal substrate. This adhesion not only improves the durability of the coating, but also reduces the risk of coating peeling, thereby extending the service life of the ship.

2.2 Enhance the corrosion resistance of coatings

ZR-70 effectively blocks the penetration of moisture, oxygen and corrosive ions by forming a dense crosslinking network, thereby improving the corrosion resistance of the coating. This corrosion resistance is particularly important in marine environments, as salt and humidity in seawater can accelerate the corrosion of metals.

2.3 Improve the mechanical properties of coatings

ZR-70 can improve the hardness, wear resistance and impact resistance of the coating, so that it can withstand various mechanical stresses during ship navigation. This improvement in mechanical properties not only extends the life of the paint, but also reduces maintenance costs.

2.4 Environmental performance

The low odor characteristics of ZR-70 and VOC-free properties make it possible toIt becomes an environmentally friendly catalyst. During the process of ship coating, the use of ZR-70 not only reduces environmental pollution, but also complies with increasingly strict environmental regulations.

III. Product parameters of ZR-70

To better understand the performance of the ZR-70, the following table lists its main product parameters:

parameter name	parameter value
Chemical Name	Reactive low-odor amine catalyst
Appearance	Colorless to light yellow liquid
Density (20?)	1.05 g/cm³
Viscosity (25?)	200-300 mPa·s
Flashpoint	>100?
Reactive amine content	70%
Reaction temperature	20-80?
Currecting time (25?)	2-4 hours
Storage Stability	12 months

IV. The long-lasting protection effect of ZR-70 in ship anti-corrosion coatings

4.1 Long-term corrosion resistance

ZR-70 effectively blocks the penetration of moisture, oxygen and corrosive ions by forming a dense crosslinking network, thereby improving the long-term corrosion resistance of the coating. In practical applications, the anti-corrosion coating of ships using ZR-70 shows excellent corrosion resistance in marine environments and can effectively extend the service life of the ship.

4.2 Anti-biological fouling performance

Microorganisms and algae in the marine environment will attach to the surface of the hull, forming biological fouling, which not only affects the navigation performance of the ship, but also accelerates the corrosion of the hull. ZR-70 effectively reduces the formation of biofouling by improving the surface smoothness and resistance to adhesion of the paint, thereby improving the navigation efficiency and corrosion resistance of the ship.

4.3 UV resistance

When ships are exposed to sunlight for a long time during their navigation, ultraviolet rays will accelerate the aging and degradation of the paint. ZR-70 effectively delays the aging process of the paint by improving the UV resistance of the paint, thereby extending the service life of the paint..

4.4 Impact resistance

Whites will bear various mechanical stresses during their navigation, such as wave impact, collision, etc. The ZR-70 reduces the risk of coating peeling and breakage by improving impact resistance of the coating so that it can withstand these mechanical stresses.

V. Application cases of ZR-70

5.1 Anti-corrosion coating of a large freighter

A large cargo ship used anti-corrosion coating containing ZR-70 during the coating process. After two years of navigation, there was no obvious corrosion or peeling on the surface of the hull, and the adhesion, corrosion resistance and mechanical properties of the paint were excellent. The shipowner expressed satisfaction with the long-lasting protection effect of the paint and planned to continue using the ZR-70 in future coatings.

5.2 Anti-corrosion coating of a fishing boat

A fishing boat used anti-corrosion coating containing ZR-70 during the coating process. After one year of use, there was no biological fouling or corrosion on the surface of the hull, and the anti-biological fouling and corrosion resistance of the paint was highly praised by the ship owner. The ship owner said that after using the ZR-70, the maintenance cost of fishing boats has been significantly reduced and navigation efficiency has also been improved.

VI. Future development prospects of ZR-70

With the increasing strict environmental regulations and the increasing demand for high-performance anti-corrosion coatings in the marine industry, ZR-70, as an environmentally friendly high-performance catalyst, has a broad application prospect. In the future, the ZR-70 is expected to be used in more types of ship anti-corrosion coatings, and its performance will be further optimized to meet the corrosion protection needs of different ships.

7. Conclusion

The application of reactive low-odor amine catalyst ZR-70 in marine corrosion-resistant coatings not only improves the adhesion, corrosion resistance and mechanical properties of the coating, but also improves the environmental protection performance of the coating. Through practical application cases, it can be seen that the ZR-70 has a significant long-lasting protection effect in ship anti-corrosion coatings, which can effectively extend the service life of the ship and reduce maintenance costs. In the future, with the continuous advancement of technology, the ZR-70 is expected to play a greater role in the field of marine anti-corrosion coatings.

Appendix: Comparison of performance of ZR-70 with other catalysts

parameter name	ZR-70	Traditional amine catalysts	Organotin Catalyst
Reactive activity	High	Medium	High
Currecting time (25?)	2-4 hours	4-6 hours	1-2 hours
Corrosion resistance	Excellent	Good	Excellent
Mechanical properties	Excellent	Good	Excellent
Environmental Performance	Low odor, VOC-free	High odor, containing VOC	High toxicity, containing VOC
Storage Stability	12 months	6 months	6 months

It can be seen from the comparison that ZR-70 is superior to traditional amine catalysts and organotin catalysts in terms of reactive activity, corrosion resistance, mechanical properties and environmental protection properties. It is an ideal marine anti-corrosion coating catalyst.

Conclusion

The application of reactive low-odor amine catalyst ZR-70 in marine anti-corrosion coatings not only improves the performance of the coating, but also improves the environmental protection performance of the coating. Through practical application cases, it can be seen that the ZR-70 has a significant long-lasting protection effect in ship anti-corrosion coatings, which can effectively extend the service life of the ship and reduce maintenance costs. In the future, with the continuous advancement of technology, the ZR-70 is expected to play a greater role in the field of marine anti-corrosion coatings.

Advantages of the use of reactive low-odor amine catalyst ZR-70 in electronic component packaging

admin 3月 7th, 2025 News

Advantages of Reactive Low Odor amine Catalyst ZR-70 in Electronic Component Packaging

Introduction

With the rapid development of electronic technology, the packaging technology of electronic components is also constantly improving. The choice of packaging materials has a crucial impact on the performance, reliability and service life of electronic components. In recent years, the reactive low-odor amine catalyst ZR-70 has gradually become a popular choice in the field of electronic component packaging due to its unique performance advantages. This article will introduce in detail the product parameters, application advantages of ZR-70 and its specific application in electronic component packaging.

1. ZR-70 product parameters

ZR-70 is a highly efficient reactive low-odor amine catalyst with the following main product parameters:

parameter name	parameter value
Chemical Name	Reactive low-odor amine catalyst
Appearance	Colorless to light yellow liquid
Density (25?)	1.05 g/cm³
Viscosity (25?)	50-100 mPa·s
Flashpoint	>100?
Boiling point	>200?
Solution	Easy soluble in organic solvents
odor	Low odor
Storage temperature	5-30?
Shelf life	12 months

2. Application advantages of ZR-70

1. Low odor characteristics

The low odor properties of ZR-70 are one of its significant advantages. During the packaging of electronic components, traditional amine catalysts often produce irritating odors, which not only affects the working environment, but may also cause harm to the health of operators. The low odor properties of ZR-70 effectively solve this problem, making the packaging process more environmentally friendly and healthy.

2. High-efficiency catalytic performance

ZR-70 has high efficiency catalytic properties and can significantly accelerate the epoxy resinCuring reaction, shorten packaging time. Its catalytic efficiency is high and can achieve rapid curing at lower temperatures, thereby improving production efficiency and reducing energy consumption.

3. Excellent mechanical properties

The encapsulation material using ZR-70 as the catalyst has excellent mechanical properties after curing. Specifically manifested as:

Mechanical Properties	value
Tension Strength	?70 MPa
Bending Strength	?120 MPa
Impact strength	?15 kJ/m²
Hardness (Shore D)	?80

These excellent mechanical properties make the packaged electronic components have higher impact resistance and durability, and can adapt to various complex working environments.

4. Good thermal stability

ZR-70 catalytically cured packaging materials have good thermal stability and can maintain stable performance under high temperature environments. Specifically manifested as:

Thermal performance	value
Glass transition temperature	?150?
Thermal decomposition temperature	?300?
Coefficient of Thermal Expansion	?50 ppm/?

This good thermal stability allows the packaged electronic components to work stably in a high temperature environment for a long time, extending the service life of the product.

5. Excellent electrical performance

ZR-70 catalytically cured packaging materials have excellent electrical properties and can effectively protect electronic components from external electromagnetic interference. Specifically manifested as:

Electrical Performance	value
Dielectric constant (1MHz)	?3.5
Dielectric loss (1MHz)	?0.02
Volume resistivity	?10¹? ?·cm
Surface resistivity	?10¹? ?

These excellent electrical properties make the packaged electronic components have higher reliability and stability, and can meet the needs of high-precision electronic devices.

6. Environmental performance

ZR-70 is an environmentally friendly catalyst. It produces very few harmful substances during its production and use, which meets the requirements of current environmental protection regulations. Its low volatility and low toxicity make its application in electronic component packaging safer and more reliable.

III. Specific application of ZR-70 in electronic component packaging

1. Integrated Circuit Package

Integrated circuits (ICs) are the core components of electronic devices, and their packaging quality directly affects the performance of the entire device. Using ZR-70 as a catalyst can effectively improve the packaging quality of integrated circuits, which is specifically manifested as:

High Reliability: ZR-70 catalytically cured packaging materials have excellent mechanical properties and thermal stability, which can effectively protect integrated circuits from the influence of the external environment and improve their reliability.
High Precision: ZR-70 catalytically cured packaging materials have excellent electrical properties, which can effectively reduce electromagnetic interference and improve the working accuracy of integrated circuits.
High efficiency: The highly efficient catalytic performance of ZR-70 can significantly shorten packaging time and improve production efficiency.

2. Power device package

Power devices are key components responsible for power conversion and control in electronic devices, and their packaging quality directly affects the power output and stability of the device. Using ZR-70 as a catalyst can effectively improve the packaging quality of power devices, which is specifically manifested as:

High heat resistance: The ZR-70 catalytically cured packaging material has good thermal stability, can work stably in a high-temperature environment for a long time, and improve the heat resistance of power devices.
High impact resistance: ZR-70 catalytically cured packaging materials have excellent mechanical properties, which can effectively improve the impact resistance of power devices and extend their service life.
High electrical performance: ZR-70 catalytically cured packaging materials have excellent electrical properties and can effectively reduce electricityMagnetic interference improves the working stability of power devices.

3. Sensor Package

Sensors are key components responsible for signal acquisition and conversion in electronic devices. The packaging quality directly affects the device’s signal acquisition accuracy and stability. Using ZR-70 as a catalyst can effectively improve the packaging quality of the sensor, which is specifically manifested as:

High Precision: ZR-70 catalytically cured packaging materials have excellent electrical properties, can effectively reduce electromagnetic interference and improve the signal acquisition accuracy of the sensor.
High Reliability: ZR-70 catalytically cured packaging material has excellent mechanical properties and thermal stability, which can effectively protect the sensor from the influence of the external environment and improve its reliability.
High efficiency: The highly efficient catalytic performance of ZR-70 can significantly shorten packaging time and improve production efficiency.

4. Optoelectronics Packaging

Optical electronic devices are key components responsible for optical signal conversion and processing in electronic devices. The packaging quality directly affects the equipment’s optical signal processing accuracy and stability. Using ZR-70 as a catalyst can effectively improve the packaging quality of optoelectronic devices, which is specifically manifested as:

High light transmittance: The ZR-70 catalytically cured packaging material has excellent light transmittance and can effectively improve the optical signal processing accuracy of optoelectronic devices.
High Reliability: ZR-70 catalytically cured packaging materials have excellent mechanical properties and thermal stability, which can effectively protect optoelectronic devices from the influence of the external environment and improve their reliability.
High efficiency: The highly efficient catalytic performance of ZR-70 can significantly shorten packaging time and improve production efficiency.

IV. Analysis of application case of ZR-70

Case 1: Integrated Circuit Packaging

A well-known electronic equipment manufacturer used ZR-70 as a catalyst for packaging materials when producing high-performance integrated circuits. After practical application, it was found that after using ZR-70, the packaging quality of integrated circuits has been significantly improved, which is specifically manifested as:

Shortening of package time: After using ZR-70, the package time is shortened by 30%, and the production efficiency is significantly improved.
Improved packaging quality: After using ZR-70, the mechanical and electrical performance of integrated circuits have been significantly improved, and the product reliability has been greatly improved.
Improvement of working environment: The low odor characteristics of ZR-70 make the working environment more environmentally friendly and healthy, and the satisfaction of operators is significantly improved.

Case 2: Power device package

A well-known power equipment manufacturer used ZR-70 as a catalyst for packaging materials when producing high-power devices. After practical application, it was found that after using ZR-70, the packaging quality of power devices has been significantly improved, which is manifested as:

Improved heat resistance: After using ZR-70, the heat resistance of the power device is significantly improved and it can work stably for a long time in a high-temperature environment.
Impression resistance is improved: After using ZR-70, the impact resistance of power devices is significantly improved, and the product service life is greatly extended.
Improved working stability: After using ZR-70, the working stability of power devices is significantly improved, and the equipment operation is more reliable.

Case 3: Sensor Packaging

A well-known automobile manufacturer used ZR-70 as a catalyst for packaging materials when producing high-precision sensors. After practical application, it was found that after using ZR-70, the packaging quality of the sensor was significantly improved, which was specifically manifested as:

Signal acquisition accuracy is improved: After using ZR-70, the signal acquisition accuracy of the sensor is significantly improved and the equipment performance is more stable.
Improved reliability: After using ZR-70, the reliability of the sensor is significantly improved and the product service life is greatly extended.
Production efficiency improvement: After using ZR-70, the packaging time was shortened by 25%, and the production efficiency was significantly improved.

Case 4: Optoelectronics Packaging

A well-known communication equipment manufacturer used ZR-70 as a catalyst for packaging materials when producing highly translucent optoelectronic devices. After practical application, it was found that after using ZR-70, the packaging quality of optoelectronic devices has been significantly improved, which is specifically manifested as:

Improved light transmittance: After using ZR-70, the light transmittance of optoelectronic devices has been significantly improved, and the optical signal processing accuracy is more stable.
Improved reliability: After using ZR-70, the reliability of optoelectronic devices has been significantly improved, and the service life of the product has been greatly extended.
Improving Productivity: After using ZR-70, when packagingThe interval was shortened by 20%, and the production efficiency was significantly improved.

V. Future development prospects of ZR-70

With the continuous advancement of electronic technology, the packaging technology of electronic components is also constantly developing. As a highly efficient, environmentally friendly and low-odor amine catalyst, ZR-70 has a broad application prospect in electronic component packaging. In the future, with the increasing strict environmental regulations and the continuous improvement of electronic equipment performance requirements, the application scope of ZR-70 will be further expanded, and its advantages in electronic component packaging will be more prominent.

1. Promotion of environmental protection regulations

With the continuous improvement of global environmental awareness, governments of various countries have become increasingly strict in environmental protection requirements for electronic products. As an environmentally friendly catalyst, ZR-70 has low volatility and low toxicity, making its application in electronic component packaging more in line with the requirements of environmental protection regulations. In the future, with the further stricter environmental regulations, the application of ZR-70 will be more widely used.

2. Improvement of performance requirements for electronic equipment

With the continuous improvement of performance requirements of electronic devices, the packaging quality of electronic components also faces higher requirements. The ZR-70 catalytically cured packaging material has excellent mechanical properties, thermal stability and electrical properties, which can effectively improve the packaging quality of electronic components and meet the needs of high-precision electronic equipment. In the future, with the further improvement of the performance requirements of electronic equipment, the application of ZR-70 will be more extensive.

3. Research and development of new materials

With the continuous development of new material technology, the application scope of ZR-70 will be further expanded. In the future, with the development and application of new materials, ZR-70 will be able to be applied to more types of electronic component packaging, further improving the packaging quality and performance of electronic components.

VI. Conclusion

To sum up, the reactive low-odor amine catalyst ZR-70 has significant application advantages in electronic component packaging. Its low odor characteristics, high efficiency catalytic performance, excellent mechanical properties, good thermal stability, excellent electrical performance and environmental protection performance have made it widely used in the packaging of electronic components such as integrated circuits, power devices, sensors and optoelectronic devices. In the future, with the increasing strict environmental regulations and the continuous improvement of electronic equipment performance requirements, the application prospects of ZR-70 will be broader. Through continuous technological innovation and application expansion, ZR-70 will make greater contributions to the development of electronic component packaging technology.

Advantages of low-odor foaming gel balance catalysts for electronic component packaging

admin 3月 7th, 2025 News

Advantages of low-odor foaming gel balance catalysts in electronic component packaging

Catalog

Introduction
Overview of low-odor foam gel balance catalyst
Requirements and Challenges in Electronic Component Packaging
Advantages of low-odor foam gel balance catalyst
- 4.1 Low odor characteristics
- 4.2 Foaming performance
- 4.3 Equilibrium catalysis
- 4.4 Environmental protection and safety
Comparison of product parameters and performance
Analysis of application cases and effects
Future development trends
Conclusion

1. Introduction

With the rapid development of electronic technology, the packaging technology of electronic components is also constantly improving. The selection of packaging materials directly affects the performance, reliability and service life of electronic components. In recent years, low-odor foam gel balance catalysts have been widely used in the field of electronic component packaging due to their unique advantages. This article will discuss in detail the application advantages of low-odor foam gel balance catalysts in electronic component packaging, and demonstrate its effect in actual applications through product parameters and performance comparisons.

2. Overview of low-odor foam gel equilibrium catalyst

Low odor foam gel balance catalyst is a new type of polymer material, mainly composed of low odor foaming agent, gel agent and balance catalyst. Its core features are low odor, good foaming performance and balanced catalytic action. This material exhibits excellent performance in electronic component packaging, which can effectively improve packaging quality and product reliability.

2.1 Low-odor foaming agent

Low odor foaming agent is one of the key components of low odor foaming gel balance catalyst. Traditional foaming agents often produce irritating odors during use, affecting the working environment and the health of operators. The low-odor foaming agent significantly reduces the generation of odor by optimizing the formulation, making the packaging process more environmentally friendly and safe.

2.2 Gel agent

Gel agents play a role in stabilizing and enhancing material structure in low-odor foaming gel equilibrium catalysts. By adding gel agent, the material can form a uniform microporous structure during the foaming process, improving the mechanical strength and heat resistance of the material.

2.3 Equilibration Catalyst

Equilibrium catalyst is another important component of low-odor foam gel equilibrium catalyst. It can adjust the reaction rate during the foaming process, ensure uniformity and stability of the foaming process, thereby improving the performance of the packaging material.

3. Requirements and challenges of electronic component packaging

The main purpose of electronic component packaging is to protect components from external environment, such as humidity, temperature, mechanical impact, etc. At the same time, the packaging material also needs to have good thermal conductivity, insulation and mechanical strength. However, traditional packaging materials face many challenges in practical applications:

Odor Problems: Traditional packaging materials will produce irritating odors during the curing process, affecting the working environment and the health of the operators.
Ununiform foaming: Uneven bubbles and excessive holes are prone to occur during foaming, which affects the mechanical properties and thermal conductivity of the packaging materials.
Insufficient catalytic efficiency: The catalytic efficiency of traditional catalysts is low, resulting in a longer curing time for the packaging materials and affecting production efficiency.
Environmental and Safety: Traditional packaging materials may contain harmful substances and do not meet environmental protection and safety requirements.

4. Advantages of low-odor foam gel balance catalysts

Low odor foam gel balance catalyst has significant advantages in electronic component packaging, mainly reflected in the following aspects:

4.1 Low odor characteristics

The low-odor foam gel balance catalyst significantly reduces the production of odor by optimizing the formulation. Compared with traditional packaging materials, it has almost no irritating odor during curing, improving the working environment and protecting the health of the operators.

4.2 Foaming performance

The low-odor foaming gel balance catalyst has good foaming properties and can form a uniform microporous structure during the foaming process. This uniform microporous structure not only improves the mechanical strength of the material, but also enhances the thermal conductivity and insulation of the material.

4.3 Equilibrium catalysis

Equilibrium catalyst plays a key role in low-odor foam gel equilibrium catalysts. It can adjust the foaming reaction rate, ensure uniformity and stability of the foaming process, thereby improving the performance of the packaging material. Compared with traditional catalysts, the equilibrium catalyst has higher catalytic efficiency, which can significantly shorten the curing time and improve production efficiency.

4.4 Environmental protection and safety

The low-odor foam gel balance catalyst adopts an environmentally friendly formula, does not contain harmful substances, and meets environmental protection and safety requirements. Its low odor characteristics and environmentally friendly formula make it more widely used in electronic component packaging.

5. Comparison of product parameters and performance

To more intuitively demonstrate the advantages of low-odor foamed gel balance catalysts, the following table compares its key parameters and properties with traditional packaging materials.

Parameters/performance	Low odor foam gel balance catalyst	Traditional packaging materials
odor	Low	High
Foaming uniformity	Alternate	Ununiform
Mechanical Strength (MPa)	50	40
Thermal Conductivity (W/m·K)	0.5	0.3
Insulation (kV/mm)	20	15
Current time (min)	10	20
Environmental	Compare	Not in compliance

From the table above, it can be seen that the low-odor foaming gel balance catalyst is superior to traditional packaging materials in terms of odor, foaming uniformity, mechanical strength, thermal conductivity, insulation, curing time and environmental protection.

6. Application cases and effects analysis

6.1 Case 1: Smartphone motherboard packaging

In the smartphone motherboard package, low-odor foam gel balance catalysts are widely used to protect electronic components on the motherboard. By using low-odor foam gel balance catalyst, the packaged motherboard performs excellently in terms of mechanical strength, thermal conductivity and insulation, significantly improving the reliability and service life of the smartphone.

6.2 Case 2: Automotive electronic control unit packaging

Automobile electronic control units (ECUs) need to work in harsh environments and have extremely high requirements for packaging materials. The application of low-odor foaming gel balanced catalyst in ECU packaging not only improves the mechanical strength and thermal conductivity of the packaging material, but also significantly reduces the odor during the curing process and improves the working environment.

6.3 Case 3: Industrial control equipment packaging

Industrial control equipment usually needs to work in high temperature and high humidity environments, and has high requirements for the heat and humidity resistance of packaging materials. The application of low-odor foaming gel balance catalyst in industrial control equipment packaging effectively improves the heat and moisture resistance of packaging materials and extends the service life of the equipment.

7. Future development trends

With the continuous advancement of electronic technology, the demand for electronic components packaging materials is also changing.change. In the future, low-odor foam gel balance catalysts will be further developed in the following aspects:

Higher performance: Through the optimization of formula and process, further improve the mechanical strength, thermal conductivity and insulation of low-odor foamed gel balance catalyst.
Environmentally friendly: Develop more environmentally friendly formulas to reduce the impact on the environment, and comply with the requirements of future environmental protection regulations.
Widely applicable: Expand the application of low-odor foam gel balance catalysts in more fields, such as aerospace, medical electronics, etc.

8. Conclusion

A low-odor foam gel balance catalyst, as a new packaging material, shows significant advantages in electronic component packaging. Its low odor characteristics, good foaming performance, balanced catalytic action and environmental protection and safety characteristics make it more and more widely used in electronic component packaging. Through the comparison of product parameters and performance, as well as the analysis of practical application cases, it can be seen that low-odor foam gel balance catalyst plays an important role in improving packaging quality and product reliability. In the future, with the continuous advancement of technology, low-odor foam gel balance catalysts will be applied in more fields, making greater contributions to the development of electronic component packaging technology.

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The long-lasting protection of reactive low-odor amine catalyst ZR-70 in marine anti-corrosion coatings

The long-lasting protection of reactive low-odor amine catalyst ZR-70 in marine corrosion coatings

Introduction

1. Basic characteristics of ZR-70

1.1 Chemical structure

1.2 Low odor characteristics

1.3 Reactive activity

2. Advantages of ZR-70 in ship anti-corrosion coatings

2.1 Improve the adhesion of the paint

2.2 Enhance the corrosion resistance of coatings

2.3 Improve the mechanical properties of coatings

2.4 Environmental performance

III. Product parameters of ZR-70

IV. The long-lasting protection effect of ZR-70 in ship anti-corrosion coatings

4.1 Long-term corrosion resistance

4.2 Anti-biological fouling performance

4.3 UV resistance

4.4 Impact resistance

V. Application cases of ZR-70

5.1 Anti-corrosion coating of a large freighter

5.2 Anti-corrosion coating of a fishing boat

VI. Future development prospects of ZR-70

7. Conclusion

Appendix: Comparison of performance of ZR-70 with other catalysts

Conclusion

Advantages of the use of reactive low-odor amine catalyst ZR-70 in electronic component packaging

Advantages of Reactive Low Odor amine Catalyst ZR-70 in Electronic Component Packaging

Introduction

1. ZR-70 product parameters

2. Application advantages of ZR-70

1. Low odor characteristics

2. High-efficiency catalytic performance

3. Excellent mechanical properties

4. Good thermal stability

5. Excellent electrical performance

6. Environmental performance

III. Specific application of ZR-70 in electronic component packaging

1. Integrated Circuit Package

2. Power device package

3. Sensor Package

4. Optoelectronics Packaging

IV. Analysis of application case of ZR-70

Case 1: Integrated Circuit Packaging

Case 2: Power device package

Case 3: Sensor Packaging

Case 4: Optoelectronics Packaging

V. Future development prospects of ZR-70

1. Promotion of environmental protection regulations

2. Improvement of performance requirements for electronic equipment

3. Research and development of new materials

VI. Conclusion

Advantages of low-odor foaming gel balance catalysts for electronic component packaging

Advantages of low-odor foaming gel balance catalysts in electronic component packaging

Catalog

1. Introduction

2. Overview of low-odor foam gel equilibrium catalyst

2.1 Low-odor foaming agent

2.2 Gel agent

2.3 Equilibration Catalyst

3. Requirements and challenges of electronic component packaging

4. Advantages of low-odor foam gel balance catalysts

4.1 Low odor characteristics

4.2 Foaming performance

4.3 Equilibrium catalysis

4.4 Environmental protection and safety

5. Comparison of product parameters and performance

6. Application cases and effects analysis

6.1 Case 1: Smartphone motherboard packaging

6.2 Case 2: Automotive electronic control unit packaging

6.3 Case 3: Industrial control equipment packaging

7. Future development trends

8. Conclusion

PRODUCT